/*++ Copyright (c) 1998 Microsoft Corporation Module Name: umlog.c Abstract: Process Private Logger. Author: 20-Oct-1998 Melur Raghuraman Revision History: --*/ #include #include // for ntutrl.h #include // for RTL_CRITICAL_SECTION in winbase.h/wtypes.h #include // for LPGUID in wmium.h #include "wmiump.h" #include "evntrace.h" #include "traceump.h" #include "tracelib.h" #include "trcapi.h" // // The following structures must match what's in ntos\wmi\tracelog.c // #define DEFAULT_BUFFER_SIZE 4096 #define MAXSTR 1024 #define BUFFER_STATE_UNUSED 0 // Buffer is empty, not used #define BUFFER_STATE_DIRTY 1 // Buffer is being used #define BUFFER_STATE_FULL 2 // Buffer is filled up #define BUFFER_STATE_FLUSH 4 // Buffer ready for flush #define SEMAPHORE_LIMIT 1024 #define DEFAULT_AGE_LIMIT 15 #define ERROR_RETRY_COUNT 10 #define ROUND_TO_PAGES(Size, Page) (((ULONG)(Size) + Page-1) & ~(Page-1)) #define BYTES_PER_MB 1048576 // Conversion for FileSizeLimit extern ULONG WmiTraceAlignment; extern LONG NtdllLoggerLock; LONG WmipLoggerCount = 0; // Use to refcount UM Log ULONG WmipGlobalSequence = 0; RTL_CRITICAL_SECTION UMLogCritSect; #define WmipEnterUMCritSection() RtlEnterCriticalSection(&UMLogCritSect) #define WmipLeaveUMCritSection() RtlLeaveCriticalSection(&UMLogCritSect) #define WmipIsLoggerOn() \ (WmipLoggerContext != NULL) && \ (WmipLoggerContext != (PWMI_LOGGER_CONTEXT) &WmipLoggerContext) // // Increase refcount on a logger context #define WmipLockLogger() \ InterlockedIncrement(&WmipLoggerCount) // Decrease refcount on a logger context #define WmipUnlockLogger() InterlockedDecrement(&WmipLoggerCount) PWMI_LOGGER_CONTEXT WmipLoggerContext = NULL; // Global pointer to LoggerContext LARGE_INTEGER OneSecond = {(ULONG)(-1 * 1000 * 1000 * 10), -1}; // #define WmipReleaseTraceBuffer(BufferResource) \ // InterlockedDecrement(&((BufferResource)->ReferenceCount)) LONG FASTCALL WmipReleaseTraceBuffer( IN PWMI_BUFFER_HEADER BufferResource ); /* * Since we do not want to make a kernel mode transition to get the * thread CPU Times, we settle for just getting the CPU Cycle counts. * We use the following macros from BradW to get the CPU cycle count. * This method may be inaccurate if the clocks are not synchronized * between processors. */ // NOTE: inline asm is not supported by C++ #if defined(_IA64_) #include #endif #pragma warning( disable: 4035 ) /* Don't complain about lack of ret value */ #pragma warning( disable: 4127 ) /* __inline __int64 WmipGetCycleCount() { #if defined(_X86_) __asm _emit 0x0F __asm _emit 0x31 /* rdtsc */ // returns edx:eax /*#elif defined(_AMD64_) return ReadTimeStampCounter(); #elif defined(_IA64_) return __getReg(CV_IA64_ApITC); #else #error "no build target defined" #endif }*/ #pragma warning( default: 4035 ) #pragma warning( default: 4127 ) #if DBG #define TraceDebug(x) DbgPrint x #else #define TraceDebug(x) #endif ULONG WmipReceiveReply( HANDLE ReplyHandle, ULONG ReplyCount, ULONG ReplyIndex, PVOID OutBuffer, ULONG OutBufferSize ); VOID WmipLogger( IN PWMI_LOGGER_CONTEXT LoggerContext ); ULONG WmipStopUmLogger( IN ULONG WnodeSize, IN OUT ULONG *SizeUsed, OUT ULONG *SizeNeeded, IN OUT PWMI_LOGGER_INFORMATION LoggerInfo ); PWMI_LOGGER_CONTEXT WmipInitLoggerContext( IN PWMI_LOGGER_INFORMATION LoggerInfo ); ULONG WmipAllocateTraceBuffers( IN PWMI_LOGGER_CONTEXT LoggerContext ); ULONG WmipFlushBuffer( IN PWMI_LOGGER_CONTEXT LoggerContext, IN PWMI_BUFFER_HEADER Buffer ); ULONG WmipFlushAllBuffers( IN PWMI_LOGGER_CONTEXT LoggerContext); PWMI_BUFFER_HEADER FASTCALL WmipSwitchBuffer( IN PWMI_LOGGER_CONTEXT LoggerContext, IN PWMI_BUFFER_HEADER OldBuffer, IN ULONG Processor ); ULONG WmipFreeLoggerContext( PWMI_LOGGER_CONTEXT LoggerContext ); BOOLEAN FASTCALL WmipIsPrivateLoggerOn() { if (!WmipIsLoggerOn()) return FALSE; return (WmipLoggerContext->CollectionOn == TRUE); } ULONG WmipSendUmLogRequest( IN WMITRACECODE RequestCode, IN OUT PWMI_LOGGER_INFORMATION LoggerInfo ) /*++ Routine Description: This routine send a UserMode Logger Request (Start/Stop/Query). Arguments: RequestCode - Request Code LoggerInfo - Logger Information necessary for the request Return Value: ERROR_SUCCESS or an error code --*/ { ULONG Status; ULONG SizeNeeded; PWMICREATEUMLOGGER UmRequest; ULONG RetSize; OBJECT_ATTRIBUTES ObjectAttributes; UNICODE_STRING GuidString; WCHAR GuidObjectName[WmiGuidObjectNameLength+1]; PUCHAR Buffer; PWNODE_HEADER Wnode; SizeNeeded = sizeof(WMICREATEUMLOGGER) + ((PWNODE_HEADER)LoggerInfo)->BufferSize; SizeNeeded = (SizeNeeded +7) & ~7; Buffer = WmipAlloc(SizeNeeded); if (Buffer == NULL) { return ERROR_OUTOFMEMORY; } UmRequest = (PWMICREATEUMLOGGER) Buffer; UmRequest->ObjectAttributes = &ObjectAttributes; UmRequest->ControlGuid = LoggerInfo->Wnode.Guid; Status = WmipBuildGuidObjectAttributes(&UmRequest->ControlGuid, &ObjectAttributes, &GuidString, GuidObjectName); if (Status == ERROR_SUCCESS) { Wnode = (PWNODE_HEADER)((PUCHAR)Buffer + sizeof(WMICREATEUMLOGGER)); memcpy(Wnode, LoggerInfo, LoggerInfo->Wnode.BufferSize); Wnode->ProviderId = RequestCode; // This Wnode is part of the Message. Status = WmipSendWmiKMRequest(NULL, IOCTL_WMI_CREATE_UM_LOGGER, Buffer, SizeNeeded, Buffer, SizeNeeded, &RetSize, NULL); if (Status == ERROR_SUCCESS) { Status = WmipReceiveReply(UmRequest->ReplyHandle.Handle, UmRequest->ReplyCount, Wnode->Version, LoggerInfo, LoggerInfo->Wnode.BufferSize); NtClose(UmRequest->ReplyHandle.Handle); } } WmipFree(Buffer); return Status; } void WmipAddInstanceIdToNames( PWMI_LOGGER_INFORMATION LoggerInfo, PWMI_LOGGER_CONTEXT LoggerContext ) { ULONG Offset; Offset = sizeof(WMI_LOGGER_INFORMATION); LoggerInfo->LoggerName.Buffer = (PVOID)((char*)LoggerInfo + Offset); Offset += LoggerInfo->LoggerName.MaximumLength; LoggerInfo->LogFileName.Buffer = (PVOID)((char*)LoggerInfo + Offset); WmipInitString(&LoggerContext->LoggerName, NULL, 0); RtlCreateUnicodeString(&LoggerContext->LoggerName, LoggerInfo->LoggerName.Buffer); WmipInitString(&LoggerContext->LogFileName, NULL, 0); if (LoggerInfo->InstanceCount == 1) { RtlCreateUnicodeString(&LoggerContext->LogFileName, LoggerInfo->LogFileName.Buffer); } else { WCHAR TempStr[MAXSTR]; if (LoggerInfo->LogFileName.MaximumLength <= MAXSTR) { swprintf(TempStr, L"%s_%d", LoggerInfo->LogFileName.Buffer, LoggerInfo->InstanceId); } else { RtlCopyMemory((PVOID)TempStr, LoggerInfo->LogFileName.Buffer, MAXSTR); TempStr[MAXSTR/2] = '\0'; } RtlCreateUnicodeString (&LoggerContext->LogFileName, TempStr); } LoggerInfo->LoggerName = LoggerContext->LoggerName; LoggerInfo->LogFileName = LoggerContext->LogFileName; } ULONG WmipQueryUmLogger( IN ULONG WnodeSize, IN OUT ULONG *SizeUsed, OUT ULONG *SizeNeeded, IN OUT PWMI_LOGGER_INFORMATION LoggerInfo ) { ULONG Offset; PWMI_LOGGER_CONTEXT LoggerContext; #if DBG LONG RefCount; RefCount = #endif WmipLockLogger(); TraceDebug(("QueryUm: %d->%d\n", RefCount-1, RefCount)); if (!WmipIsLoggerOn()) { #if DBG RefCount = #endif WmipUnlockLogger(); TraceDebug(("QueryUm: %d->%d OBJECT_NOT_FOUND\n", RefCount+1,RefCount)); return ERROR_OBJECT_NOT_FOUND; } LoggerContext = WmipLoggerContext; *SizeUsed = 0; *SizeNeeded = sizeof(WMI_LOGGER_INFORMATION); if (WnodeSize < *SizeNeeded) { #if DBG RefCount = #endif WmipUnlockLogger(); TraceDebug(("QueryUm: %d->%d ERROR_MORE_DATA\n", RefCount+1, RefCount)); return ERROR_MORE_DATA; } LoggerInfo->Wnode.Guid = LoggerContext->InstanceGuid; LoggerInfo->LogFileMode = LoggerContext->LogFileMode; LoggerInfo->MaximumFileSize = LoggerContext->MaximumFileSize; LoggerInfo->FlushTimer = (ULONG)(LoggerContext->FlushTimer.QuadPart / OneSecond.QuadPart); LoggerInfo->BufferSize = LoggerContext->BufferSize / 1024; LoggerInfo->NumberOfBuffers = LoggerContext->NumberOfBuffers; LoggerInfo->MinimumBuffers = LoggerContext->MinimumBuffers; LoggerInfo->MaximumBuffers = LoggerContext->MaximumBuffers; LoggerInfo->EventsLost = LoggerContext->EventsLost; LoggerInfo->FreeBuffers = LoggerContext->BuffersAvailable; LoggerInfo->BuffersWritten = LoggerContext->BuffersWritten; LoggerInfo->LogBuffersLost = LoggerContext->LogBuffersLost; LoggerInfo->RealTimeBuffersLost = LoggerContext->RealTimeBuffersLost; LoggerInfo->AgeLimit = (ULONG)(LoggerContext->BufferAgeLimit.QuadPart / OneSecond.QuadPart / 60); LoggerInfo->LoggerThreadId = LoggerContext->LoggerThreadId; LoggerInfo->Wnode.ClientContext = LoggerContext->UsePerfClock; WmiSetLoggerId(1, (PTRACE_ENABLE_CONTEXT) &LoggerInfo->Wnode.HistoricalContext); // Copy LogFileName and LoggerNames into Buffer, if space is available // Offset = sizeof(WMI_LOGGER_INFORMATION); if ((Offset + LoggerContext->LoggerName.MaximumLength) < WnodeSize) { LoggerInfo->LoggerName.Buffer = (PVOID)((char*)LoggerInfo + Offset); if (LoggerInfo->LoggerName.MaximumLength == 0) { LoggerInfo->LoggerName.MaximumLength = LoggerContext->LoggerName.MaximumLength; } else { LoggerInfo->LoggerName.MaximumLength = __min(LoggerInfo->LoggerName.MaximumLength, LoggerContext->LoggerName.MaximumLength); } RtlCopyUnicodeString(&LoggerInfo->LoggerName, &LoggerContext->LoggerName); *SizeNeeded += LoggerContext->LoggerName.MaximumLength; } Offset += LoggerContext->LoggerName.MaximumLength; if ((Offset + LoggerContext->LogFileName.MaximumLength) < WnodeSize) { LoggerInfo->LogFileName.Buffer = (PVOID)((char*)LoggerInfo + Offset); if (LoggerInfo->LogFileName.MaximumLength == 0) { LoggerInfo->LogFileName.MaximumLength = LoggerContext->LogFileName.MaximumLength; } else { LoggerInfo->LogFileName.MaximumLength = __min(LoggerInfo->LogFileName.MaximumLength, LoggerContext->LogFileName.MaximumLength); } RtlCopyUnicodeString(&LoggerInfo->LogFileName, &LoggerContext->LogFileName); *SizeNeeded += LoggerContext->LogFileName.MaximumLength; } *SizeUsed = *SizeNeeded; #if DBG RefCount = #endif WmipUnlockLogger(); TraceDebug(("QueryUm: %d->%d ERROR_SUCCESS\n", RefCount+1, RefCount)); return ERROR_SUCCESS; } ULONG WmipUpdateUmLogger( IN ULONG WnodeSize, IN OUT ULONG *SizeUsed, OUT ULONG *SizeNeeded, IN OUT PWMI_LOGGER_INFORMATION LoggerInfo ) { ULONG Status = ERROR_SUCCESS; PWMI_LOGGER_CONTEXT LoggerContext; // // Check for parameters first // *SizeUsed = 0; *SizeNeeded = sizeof(WMI_LOGGER_INFORMATION); if (WnodeSize < * SizeNeeded) { return ERROR_MORE_DATA; } if (LoggerInfo->BufferSize != 0 || LoggerInfo->MinimumBuffers != 0 || LoggerInfo->MaximumBuffers != 0 || LoggerInfo->MaximumFileSize != 0 || LoggerInfo->EnableFlags != 0 || LoggerInfo->AgeLimit != 0) { return ERROR_INVALID_PARAMETER; } // // Lock logger down if it is running // WmipLockLogger(); if (!WmipIsLoggerOn()) { WmipUnlockLogger(); return ERROR_OBJECT_NOT_FOUND; } LoggerContext = WmipLoggerContext; if (((LoggerInfo->LogFileMode & EVENT_TRACE_FILE_MODE_CIRCULAR) && (LoggerContext->LogFileMode & EVENT_TRACE_FILE_MODE_SEQUENTIAL)) || ((LoggerInfo->LogFileMode & EVENT_TRACE_FILE_MODE_SEQUENTIAL) && (LoggerContext->LogFileMode & EVENT_TRACE_FILE_MODE_CIRCULAR)) || (LoggerInfo->LogFileMode & EVENT_TRACE_REAL_TIME_MODE)) { WmipUnlockLogger(); return (ERROR_INVALID_PARAMETER); } LoggerInfo->LoggerName.Buffer = (PWCHAR) (((PCHAR) LoggerInfo) + sizeof(WMI_LOGGER_INFORMATION)); LoggerInfo->LogFileName.Buffer = (PWCHAR) (((PCHAR) LoggerInfo) + sizeof(WMI_LOGGER_INFORMATION) + LoggerInfo->LoggerName.MaximumLength); if (LoggerInfo->FlushTimer > 0) { LoggerContext->FlushTimer.QuadPart = LoggerInfo->FlushTimer * OneSecond.QuadPart; } if (LoggerInfo->LogFileName.Length > 0) { if (LoggerContext->LogFileHandle != NULL) { PWMI_LOGGER_INFORMATION WmipLoggerInfo = NULL; ULONG lSizeUsed; ULONG lSizeNeeded = 0; lSizeUsed = sizeof(WMI_LOGGER_INFORMATION) + 2 * MAXSTR * sizeof(WCHAR); WmipLoggerInfo = (PWMI_LOGGER_INFORMATION) WmipAlloc(lSizeUsed); if (WmipLoggerInfo == NULL) { Status = ERROR_OUTOFMEMORY; goto Cleanup; } RtlZeroMemory(WmipLoggerInfo, lSizeUsed); WmipLoggerInfo->Wnode.BufferSize = lSizeUsed; WmipLoggerInfo->Wnode.Flags |= WNODE_FLAG_TRACED_GUID; Status = WmipQueryUmLogger( WmipLoggerInfo->Wnode.BufferSize, & lSizeUsed, & lSizeNeeded, WmipLoggerInfo); if (Status != ERROR_SUCCESS) { WmipFree(WmipLoggerInfo); goto Cleanup; } NtClose(LoggerContext->LogFileHandle); Status = WmipFinalizeLogFileHeader(WmipLoggerInfo); if (Status != ERROR_SUCCESS) { WmipFree(WmipLoggerInfo); goto Cleanup; } WmipFree(WmipLoggerInfo); } LoggerInfo->BufferSize = LoggerContext->BufferSize / 1024; LoggerInfo->MaximumFileSize = LoggerContext->MaximumFileSize; LoggerInfo->LogFileMode = LoggerContext->LogFileMode; if (LoggerContext->LogFileName.Buffer != NULL) { RtlFreeUnicodeString(& LoggerContext->LogFileName); } WmipAddInstanceIdToNames(LoggerInfo, LoggerContext); Status = WmipAddLogHeaderToLogFile(LoggerInfo, NULL, TRUE); if (Status != ERROR_SUCCESS) { goto Cleanup; } LoggerContext->LogFileHandle = LoggerInfo->LogFileHandle; RtlCreateUnicodeString(&LoggerContext->LogFileName, LoggerInfo->LogFileName.Buffer); } Cleanup: if (Status == ERROR_SUCCESS) { Status = WmipQueryUmLogger(WnodeSize, SizeUsed, SizeNeeded, LoggerInfo); } WmipUnlockLogger(); return (Status); } ULONG WmipStartUmLogger( IN ULONG WnodeSize, IN OUT ULONG *SizeUsed, OUT ULONG *SizeNeeded, IN OUT PWMI_LOGGER_INFORMATION LoggerInfo ) { NTSTATUS Status; ULONG ErrorCode; LARGE_INTEGER TimeOut = {(ULONG)(-2000 * 1000 * 10), -1}; // 2 secs UNICODE_STRING SavedLoggerName; UNICODE_STRING SavedLogFileName; PTRACE_ENABLE_CONTEXT pContext; CLIENT_ID ClientId; PWNODE_HEADER Wnode = (PWNODE_HEADER)&LoggerInfo->Wnode; PVOID RequestAddress; PVOID RequestContext; ULONG RequestCookie; ULONG BufferSize; PWMI_LOGGER_CONTEXT LoggerContext; #if DBG LONG RefCount; #endif if (LoggerInfo->Wnode.BufferSize < sizeof(WMI_LOGGER_INFORMATION)) return ERROR_INVALID_PARAMETER; if ( (LoggerInfo->LogFileMode & EVENT_TRACE_FILE_MODE_SEQUENTIAL) && (LoggerInfo->LogFileMode & EVENT_TRACE_FILE_MODE_CIRCULAR) ) { return ERROR_INVALID_PARAMETER; } if ( (LoggerInfo->LogFileMode & EVENT_TRACE_USE_GLOBAL_SEQUENCE) && (LoggerInfo->LogFileMode & EVENT_TRACE_USE_LOCAL_SEQUENCE) ) { return ERROR_INVALID_PARAMETER; } if (WmipLoggerContext != NULL) { return ERROR_WMI_ALREADY_ENABLED; } #if DBG RefCount = #endif WmipLockLogger(); TraceDebug(("StartUm: %d->%d\n", RefCount-1, RefCount)); if (InterlockedCompareExchangePointer(&WmipLoggerContext, &WmipLoggerContext, NULL ) != NULL) { #if DBG RefCount = #endif WmipUnlockLogger(); TraceDebug(("StartUm: %d->%d ALREADY_ENABLED\n", RefCount+1, RefCount)); return ERROR_WMI_ALREADY_ENABLED; } LoggerContext = WmipInitLoggerContext(LoggerInfo); if (LoggerContext == NULL) { ErrorCode = ERROR_OUTOFMEMORY; goto Cleanup; } // // The LogFileName and LoggerNames are passed in as offset to the // LOGGER_INFORMATION structure. Reassign the Pointers for UNICODE_STRING // SavedLoggerName = LoggerInfo->LoggerName; SavedLogFileName = LoggerInfo->LogFileName; // // Since there may multiple processes registering for the same control guid // we want to make sure a start logger call from all of them do not // collide on the same file. So we tag on a InstanceId to the file name. // WmipAddInstanceIdToNames(LoggerInfo, LoggerContext); ErrorCode = WmipAddLogHeaderToLogFile(LoggerInfo, NULL, FALSE); if (ErrorCode != ERROR_SUCCESS) { goto Cleanup; } else { ULONG Min_Buffers, Max_Buffers; ULONG NumberProcessors; NumberProcessors = LoggerInfo->NumberOfProcessors; LoggerContext->NumberOfProcessors = NumberProcessors; // EventsLost is UNIONed to NumberOfProcessors in WMI_LOGGER_INFORMATION // in UM case. Need to reset EventsLost back to 0 // LoggerInfo->EventsLost = 0; Min_Buffers = NumberProcessors + 1; Max_Buffers = 1024; if (LoggerInfo->MaximumBuffers >= Min_Buffers ) { LoggerContext->MaximumBuffers = LoggerInfo->MaximumBuffers; } else { LoggerContext->MaximumBuffers = 25; } if (LoggerInfo->MinimumBuffers >= Min_Buffers && LoggerInfo->MinimumBuffers <= LoggerContext->MaximumBuffers) { LoggerContext->MinimumBuffers = LoggerInfo->MinimumBuffers; } else { LoggerContext->MinimumBuffers = Min_Buffers; } if (LoggerContext->MaximumBuffers > Max_Buffers) LoggerContext->MaximumBuffers = Max_Buffers; if (LoggerContext->MinimumBuffers > Max_Buffers) LoggerContext->MinimumBuffers = Max_Buffers; LoggerContext->NumberOfBuffers = LoggerContext->MinimumBuffers; } LoggerContext->LogFileHandle = LoggerInfo->LogFileHandle; LoggerContext->BufferSize = LoggerInfo->BufferSize * 1024; LoggerContext->BuffersWritten = LoggerInfo->BuffersWritten; LoggerContext->ByteOffset.QuadPart = LoggerInfo->BuffersWritten * LoggerInfo->BufferSize * 1024; LoggerContext->InstanceGuid = LoggerInfo->Wnode.Guid; LoggerContext->MaximumFileSize = LoggerInfo->MaximumFileSize; LoggerContext->UsePerfClock = LoggerInfo->Wnode.ClientContext; ErrorCode = WmipAllocateTraceBuffers(LoggerContext); if (ErrorCode != ERROR_SUCCESS) { goto Cleanup; } LoggerInfo->NumberOfBuffers = LoggerContext->NumberOfBuffers; LoggerInfo->MaximumBuffers = LoggerContext->MaximumBuffers; LoggerInfo->MinimumBuffers = LoggerContext->MinimumBuffers; LoggerInfo->FreeBuffers = LoggerContext->BuffersAvailable; pContext = (PTRACE_ENABLE_CONTEXT)&LoggerInfo->Wnode.HistoricalContext; pContext->InternalFlag |= EVENT_TRACE_INTERNAL_FLAG_PRIVATE; pContext->LoggerId = 1; if (LoggerInfo->LogFileMode & EVENT_TRACE_USE_GLOBAL_SEQUENCE) { WmipGlobalSequence = 0; LoggerContext->SequencePtr = &WmipGlobalSequence; } else if (LoggerInfo->LogFileMode & EVENT_TRACE_USE_LOCAL_SEQUENCE) LoggerContext->SequencePtr = &LoggerContext->LocalSequence; // // Initialize Events, Semaphores and Crit Sections // Status = NtCreateEvent( &LoggerContext->LoggerEvent, EVENT_ALL_ACCESS, NULL, SynchronizationEvent, FALSE); if (!NT_SUCCESS(Status)) { ErrorCode = ERROR_OBJECT_NOT_FOUND; goto Cleanup; } // TODO: // This requires a private routine to create initial stack and // call NtCreateThread // LoggerContext->hThread = WmipCreateThread(NULL, 0, (LPTHREAD_START_ROUTINE) &WmipLogger, (LPVOID)LoggerContext, 0, (LPDWORD)&ClientId); LoggerContext->LoggerThreadId = ClientId.UniqueThread; if((LoggerContext->hThread == NULL) || (LoggerContext->LoggerThreadId == 0)){ ErrorCode = WmipGetLastError(); goto Cleanup; } else { WmipCloseHandle(LoggerContext->hThread); // // Elevate the priority of the Logging thread to highest // WmipSetThreadPriority(LoggerContext->hThread, THREAD_PRIORITY_HIGHEST); } /* Status = STATUS_TIMEOUT; while (Status == STATUS_TIMEOUT) { Status = NtWaitForSingleObject(LoggerContext->LoggerEvent, FALSE, &TimeOut); #if DBG WmipAssert(Status != STATUS_TIMEOUT); #endif DbgPrint("Process Id : %d, Thread Id : %d\n",WmipGetCurrentProcessId(),LoggerContext->LoggerThreadId); DbgPrint("Start : %x\n",&WmipLogger); } NtClearEvent(LoggerContext->LoggerEvent); WmipLoggerContext = LoggerContext;*/ // // Look to see if this Provider is currently enabled. // RequestCookie = Wnode->ClientContext; if ( (RequestCookie != 0) && (WmipLookupCookie(RequestCookie, &Wnode->Guid, &RequestAddress, &RequestContext)) ) { WmipDebugPrint(("WMI: LookUpCookie %d RequestAddress %X\n", RequestCookie, RequestAddress)); } else { WmipDebugPrint(("WMI: LOOKUP COOKIE FAILED\n")); #if DBG RefCount = #endif WmipUnlockLogger(); TraceDebug(("StartUm: %d->%d DP_FAILED\n", RefCount+1, RefCount)); return(ERROR_WMI_DP_FAILED); } try { PGUIDMAPENTRY pControlGMEntry = RequestAddress; PTRACE_REG_INFO pTraceRegInfo = NULL; WMIDPREQUEST WmiDPRequest = NULL; BufferSize = Wnode->BufferSize; if (RequestAddress != NULL) pTraceRegInfo = pControlGMEntry->pControlGuidData; if (pTraceRegInfo != NULL) { RequestAddress = pTraceRegInfo->NotifyRoutine; if (pTraceRegInfo->EnabledState) WmiDPRequest = (WMIDPREQUEST)RequestAddress; } if (*WmiDPRequest != NULL) { ErrorCode = (*WmiDPRequest)(WMI_ENABLE_EVENTS, RequestContext, &BufferSize, Wnode); } } except (EXCEPTION_EXECUTE_HANDLER) { #if DBG ErrorCode = GetExceptionCode(); WmipDebugPrint(("WMI: Service request call caused an exception %d\n", Status)); #endif ErrorCode = ERROR_WMI_DP_FAILED; } Cleanup: LoggerInfo->LogFileName = SavedLogFileName; LoggerInfo->LoggerName = SavedLoggerName; if (ErrorCode != ERROR_SUCCESS) { if (LoggerInfo->LogFileHandle) { NtClose(LoggerInfo->LogFileHandle); LoggerInfo->LogFileHandle = NULL; if (LoggerContext != NULL) { LoggerContext->LogFileHandle = NULL; } } #if DBG RefCount = #endif WmipLockLogger(); TraceDebug(("StartUm: %d->%d %d Freeing\n", RefCount-1, RefCount)); WmipFreeLoggerContext(LoggerContext); #if DBG RefCount = #endif WmipUnlockLogger(); TraceDebug(("StartUm: %d->%d %d\n", RefCount+1, RefCount, ErrorCode)); } else { *SizeUsed = LoggerInfo->Wnode.BufferSize; *SizeNeeded = LoggerInfo->Wnode.BufferSize; // Logger remains locked with refcount = 1 } return ErrorCode; } ULONG WmipStopLoggerInstance( VOID ) { ULONG LoggerOn; NTSTATUS Status; LARGE_INTEGER TimeOut = {(ULONG)(-1000 * 1000 * 10), -1}; // 1sec PWMI_LOGGER_CONTEXT LoggerContext = WmipLoggerContext; if (LoggerContext == NULL) { return ERROR_OBJECT_NOT_FOUND; } LoggerOn = InterlockedExchange(&LoggerContext->CollectionOn, FALSE); if (LoggerOn == FALSE) { return ERROR_OBJECT_NOT_FOUND; } NtReleaseSemaphore(LoggerContext->Semaphore, 1, NULL); Status = STATUS_TIMEOUT; while (Status == STATUS_TIMEOUT) { Status = NtWaitForSingleObject( LoggerContext->LoggerEvent, FALSE, &TimeOut); #if DBG WmipAssert(Status != STATUS_TIMEOUT); #endif } NtClearEvent(LoggerContext->LoggerEvent); return ERROR_SUCCESS; } ULONG WmipDisableTraceProvider( PWMI_LOGGER_INFORMATION LoggerInfo ) { WMIDPREQUEST WmiDPRequest; PVOID RequestAddress; PVOID RequestContext; WNODE_HEADER Wnode; ULONG Cookie; ULONG BufferSize; ULONG Status = ERROR_SUCCESS; BufferSize = sizeof(WNODE_HEADER); RtlCopyMemory(&Wnode, &LoggerInfo->Wnode, BufferSize); Wnode.BufferSize = BufferSize; Wnode.ProviderId = WMI_DISABLE_EVENTS; Cookie = Wnode.CountLost; if (WmipLookupCookie(Cookie, &Wnode.Guid, &RequestAddress, &RequestContext)) { WmiDPRequest = (WMIDPREQUEST)RequestAddress; try { WmipGenericTraceEnable(Wnode.ProviderId, &Wnode, (PVOID*)&WmiDPRequest); if (*WmiDPRequest != NULL) { Status = (*WmiDPRequest)(Wnode.ProviderId, RequestContext, &BufferSize, &Wnode); } else Status = ERROR_WMI_DP_NOT_FOUND; } except (EXCEPTION_EXECUTE_HANDLER) { #if DBG Status = GetExceptionCode(); WmipDebugPrint(("WMI: Service request call caused an exception %d\n", Status)); #endif Status = ERROR_WMI_DP_FAILED; } } return Status; } ULONG WmipStopUmLogger( IN ULONG WnodeSize, IN OUT ULONG *SizeUsed, OUT ULONG *SizeNeeded, IN OUT PWMI_LOGGER_INFORMATION LoggerInfo ) { ULONG Status = ERROR_SUCCESS; #if DBG LONG RefCount; RefCount = #endif WmipLockLogger(); TraceDebug(("StopUm: %d->%d\n", RefCount-1, RefCount)); if (!WmipIsLoggerOn()) { #if DBG RefCount = #endif WmipUnlockLogger(); TraceDebug(("StopUm: %d->%d INSTANCE_NOT_FOUND\n",RefCount+1,RefCount)); return (ERROR_WMI_INSTANCE_NOT_FOUND); } Status = WmipStopLoggerInstance(); if (Status == ERROR_SUCCESS) { Status = WmipQueryUmLogger(WnodeSize, SizeUsed, SizeNeeded, LoggerInfo); } if (Status != ERROR_SUCCESS) { #if DBG RefCount = #endif WmipUnlockLogger(); TraceDebug(("StopUm: %d->%d %d\n", RefCount+1, RefCount, Status)); WmipSetLastError(Status); return(Status); } // // Finalize LogHeader ? // if (Status == ERROR_SUCCESS) { LoggerInfo->BuffersWritten = WmipLoggerContext->BuffersWritten; LoggerInfo->LogFileMode = WmipLoggerContext->LogFileMode; Status = WmipFinalizeLogFileHeader(LoggerInfo); } WmipFreeLoggerContext(WmipLoggerContext); WmipDisableTraceProvider(LoggerInfo); return Status; } ULONG WmipProcessUMRequest( PWMI_LOGGER_INFORMATION LoggerInfo, PVOID DeliveryContext, ULONG ReplyIndex ) { ULONG Status; PWMIMBREPLY Reply; ULONG BufferSize; PUCHAR Buffer = NULL; ULONG WnodeSize = 0; ULONG SizeUsed, SizeNeeded; ULONG RequestCode = 0; ULONG RetSize; struct { WMIMBREPLY MBreply; ULONG Status; } DefaultReply; Reply = (PWMIMBREPLY) &DefaultReply; Reply->Handle.Handle = (HANDLE)DeliveryContext; Reply->ReplyIndex = ReplyIndex; BufferSize = sizeof(DefaultReply); if ( (LoggerInfo==NULL) || (DeliveryContext == NULL) ) { DefaultReply.Status = ERROR_INVALID_PARAMETER; goto cleanup; } RequestCode = LoggerInfo->Wnode.ProviderId; WnodeSize = LoggerInfo->Wnode.BufferSize; SizeUsed = 0; SizeNeeded = 0; switch (RequestCode) { case WmiStartLoggerCode: Status = WmipStartUmLogger(WnodeSize, &SizeUsed, &SizeNeeded, LoggerInfo); break; case WmiStopLoggerCode: Status = WmipStopUmLogger(WnodeSize, &SizeUsed, &SizeNeeded, LoggerInfo); break; case WmiQueryLoggerCode: Status = WmipQueryUmLogger(WnodeSize, &SizeUsed, &SizeNeeded, LoggerInfo); break; case WmiUpdateLoggerCode: Status = WmipUpdateUmLogger(WnodeSize, &SizeUsed, &SizeNeeded, LoggerInfo); break; default: Status = ERROR_INVALID_PARAMETER; break; } BufferSize += WnodeSize; Buffer = WmipAlloc(BufferSize); if (Buffer == NULL) { BufferSize = sizeof(DefaultReply); DefaultReply.Status = ERROR_OUTOFMEMORY; } else { Reply = (PWMIMBREPLY) Buffer; Reply->Handle.Handle = (HANDLE)DeliveryContext; Reply->ReplyIndex = ReplyIndex; if (LoggerInfo != NULL) { memcpy(Reply->Message, LoggerInfo, LoggerInfo->Wnode.BufferSize); } } cleanup: Status = WmipSendWmiKMRequest(NULL, IOCTL_WMI_MB_REPLY, Reply, BufferSize, Reply, BufferSize, &RetSize, NULL); if (Buffer != NULL) { WmipFree(Buffer); } return Status; } PWMI_LOGGER_CONTEXT WmipInitLoggerContext( IN PWMI_LOGGER_INFORMATION LoggerInfo ) { PWMI_LOGGER_CONTEXT LoggerContext; NTSTATUS Status; SYSTEM_BASIC_INFORMATION SystemInfo; LoggerContext = (PWMI_LOGGER_CONTEXT) WmipAlloc(sizeof(WMI_LOGGER_CONTEXT)); if (LoggerContext == NULL) { return LoggerContext; } RtlZeroMemory(LoggerContext, sizeof(WMI_LOGGER_CONTEXT)); if (LoggerInfo->BufferSize > 0) { LoggerContext->BufferSize = LoggerInfo->BufferSize * 1024; } else { LoggerContext->BufferSize = DEFAULT_BUFFER_SIZE; } LoggerInfo->BufferSize = LoggerContext->BufferSize / 1024; Status = NtQuerySystemInformation( SystemBasicInformation, &SystemInfo, sizeof (SystemInfo), NULL); if (!NT_SUCCESS(Status)) { WmipFree(LoggerContext); return NULL; } // // Round the Buffer Size to page size multiple and save it // for allocation later. // LoggerContext->BufferPageSize = ROUND_TO_PAGES(LoggerContext->BufferSize, SystemInfo.PageSize); LoggerContext->LogFileHandle = LoggerInfo->LogFileHandle; LoggerContext->ByteOffset.QuadPart = LoggerInfo->BuffersWritten * LoggerInfo->BufferSize * 1024; LoggerContext->LogFileMode = EVENT_TRACE_PRIVATE_LOGGER_MODE; if (LoggerInfo->LogFileMode & EVENT_TRACE_FILE_MODE_CIRCULAR) LoggerContext->LogFileMode |= EVENT_TRACE_FILE_MODE_CIRCULAR; else LoggerContext->LogFileMode |= EVENT_TRACE_FILE_MODE_SEQUENTIAL; LoggerContext->EventsLost = 0; LoggerContext->BuffersWritten = LoggerInfo->BuffersWritten; LoggerContext->BuffersAvailable = LoggerContext->NumberOfBuffers; LoggerContext->ProcessorBuffers = NULL; LoggerContext->StartTime.QuadPart = WmipGetSystemTime(); InitializeListHead(&LoggerContext->FreeList); InitializeListHead(&LoggerContext->FlushList); LoggerContext->BufferAgeLimit.QuadPart = 15 * OneSecond.QuadPart * 60 * DEFAULT_AGE_LIMIT; if (LoggerInfo->AgeLimit > 0) { LoggerContext->BufferAgeLimit.QuadPart = LoggerInfo->AgeLimit * OneSecond.QuadPart * 60; } else if (LoggerInfo->AgeLimit < 0) LoggerContext->BufferAgeLimit.QuadPart = 0; Status = NtCreateSemaphore( &LoggerContext->Semaphore, SEMAPHORE_ALL_ACCESS, NULL, 0, SEMAPHORE_LIMIT); if (!NT_SUCCESS(Status)) { WmipFree(LoggerContext); return NULL; } // RtlInitializeCriticalSection(&UMLogCritSect); return LoggerContext; } PWMI_BUFFER_HEADER FASTCALL WmipGetFreeBuffer( IN PWMI_LOGGER_CONTEXT LoggerContext ) { PWMI_BUFFER_HEADER Buffer = NULL; if (IsListEmpty(&LoggerContext->FreeList)) { ULONG BufferSize = LoggerContext->BufferPageSize; ULONG MaxBuffers = LoggerContext->MaximumBuffers; ULONG NumberOfBuffers = LoggerContext->NumberOfBuffers; if (NumberOfBuffers < MaxBuffers) { Buffer = (PWMI_BUFFER_HEADER) WmipMemCommit( (PVOID)((char*)LoggerContext->BufferSpace + BufferSize * NumberOfBuffers), BufferSize); if (Buffer != NULL) { RtlZeroMemory(Buffer, sizeof(WMI_BUFFER_HEADER)); Buffer->CurrentOffset = sizeof(WMI_BUFFER_HEADER); Buffer->Flags = BUFFER_STATE_DIRTY; Buffer->ReferenceCount = 0; Buffer->SavedOffset = 0; Buffer->Wnode.ClientContext = 0; InterlockedIncrement(&LoggerContext->NumberOfBuffers); } } } else { PLIST_ENTRY pEntry = RemoveHeadList(&LoggerContext->FreeList); if (pEntry != NULL) { Buffer = CONTAINING_RECORD(pEntry, WMI_BUFFER_HEADER, Entry); InterlockedDecrement(&LoggerContext->BuffersAvailable); Buffer->CurrentOffset = sizeof(WMI_BUFFER_HEADER); Buffer->Flags = BUFFER_STATE_DIRTY; Buffer->SavedOffset = 0; Buffer->ReferenceCount = 0; Buffer->Wnode.ClientContext = 0; } } return Buffer; } ULONG WmipAllocateTraceBuffers( IN PWMI_LOGGER_CONTEXT LoggerContext ) /*++ Routine Description: This routine is called to allocate the necessary buffers for user-mode only logging. Arguments: None Return Value: Status of allocating the buffers --*/ { ULONG Processors; ULONG BufferSize; ULONG BufferPageSize; ULONG NumberOfBuffers; ULONG i; PVOID BufferSpace; PWMI_BUFFER_HEADER Buffer; Processors = LoggerContext->NumberOfProcessors; if (Processors == 0) Processors = 1; BufferSize = LoggerContext->BufferSize; if (BufferSize < 1024) BufferSize = 4096; NumberOfBuffers = LoggerContext->NumberOfBuffers; if (NumberOfBuffers < Processors+1) NumberOfBuffers = Processors + 1; // // Determine the number of processors first // LoggerContext->ProcessorBuffers = WmipAlloc( Processors * sizeof(PWMI_BUFFER_HEADER)); if (LoggerContext->ProcessorBuffers == NULL) { return ERROR_OUTOFMEMORY; } BufferSpace = WmipMemReserve( LoggerContext->MaximumBuffers * LoggerContext->BufferPageSize ); if (BufferSpace == NULL) { WmipFree(LoggerContext->ProcessorBuffers); LoggerContext->ProcessorBuffers = NULL; return ERROR_OUTOFMEMORY; } LoggerContext->BufferSpace = BufferSpace; for (i=0; iBufferPageSize), BufferSize); if (Buffer == NULL) { WmipMemFree(LoggerContext->BufferSpace); WmipFree(LoggerContext->ProcessorBuffers); LoggerContext->ProcessorBuffers = NULL; LoggerContext->BufferSpace = NULL; return ERROR_OUTOFMEMORY; } RtlZeroMemory(Buffer, sizeof(WMI_BUFFER_HEADER)); Buffer->TimeStamp.QuadPart = WmipGetSystemTime(); Buffer->CurrentOffset = sizeof(WMI_BUFFER_HEADER); Buffer->Wnode.Flags = BUFFER_STATE_DIRTY; InsertTailList(&LoggerContext->FreeList, & (Buffer->Entry)); } LoggerContext->NumberOfBuffers = NumberOfBuffers; LoggerContext->BuffersAvailable = NumberOfBuffers; for (i=0; iProcessorBuffers[i] = Buffer; if (Buffer != NULL) { Buffer->ClientContext.ProcessorNumber = (UCHAR) i; } else { WmipMemFree(LoggerContext->BufferSpace); WmipFree(LoggerContext->ProcessorBuffers); LoggerContext->ProcessorBuffers = NULL; LoggerContext->BufferSpace = NULL; return ERROR_OUTOFMEMORY; } } return ERROR_SUCCESS; } VOID WmipLogger( IN PWMI_LOGGER_CONTEXT LoggerContext ) /*++ Routine Description: This function is the logger itself. It is started as a separate thread. It will not return until someone has stopped data collection or it is not successful is flushing out a buffer (e.g. disk is full). Arguments: None. Return Value: The status of running the buffer manager --*/ { PWMI_BUFFER_HEADER Buffer; NTSTATUS Status; ULONG i, ErrorCount; PLIST_ENTRY pEntry; LIST_ENTRY FlushList; BOOLEAN StopLogging = FALSE; Status = STATUS_SUCCESS; LoggerContext->LoggerStatus = Status; if (NT_SUCCESS(Status)) { // // This is the only place where CollectionOn will be turn on!!! // LoggerContext->CollectionOn = TRUE; WmipLoggerContext = LoggerContext; //NtSetEvent(LoggerContext->LoggerEvent, NULL); } else { //NtSetEvent(LoggerContext->LoggerEvent, NULL); WmipExitThread(0);; } InterlockedDecrement(&NtdllLoggerLock); ErrorCount = 0; // by now, the caller has been notified that the logger is running // // Loop and wait for buffers to be filled until someone turns off CollectionOn // while (LoggerContext->CollectionOn) { ULONG Counter; ULONG DelayFlush; PLARGE_INTEGER FlushTimer; if (LoggerContext->FlushTimer.QuadPart == 0) { FlushTimer = NULL; } else { FlushTimer = &LoggerContext->FlushTimer; } Status = NtWaitForSingleObject( LoggerContext->Semaphore, FALSE, FlushTimer); DelayFlush = FALSE; if ( Status == WAIT_TIMEOUT) { // // FlushTimer used, and we just timed out. Go through per processor buffer // and mark each as FULL so that it will get flushed next time // for (i=0; i<(ULONG)LoggerContext->NumberOfProcessors; i++) { Buffer = (PWMI_BUFFER_HEADER)LoggerContext->ProcessorBuffers[i]; if (Buffer == NULL) continue; if (Buffer->CurrentOffset == sizeof(WMI_BUFFER_HEADER)) Buffer->Flags = BUFFER_STATE_UNUSED; if (Buffer->Flags != BUFFER_STATE_UNUSED) { Buffer->Flags = BUFFER_STATE_FULL; DelayFlush = TRUE; // let ReserveTraceBuffer send semaphore } } } if (DelayFlush) // will only be TRUE if FlushTimer is used continue; if (IsListEmpty(&LoggerContext->FlushList)){ //should not happen normally continue; } LoggerContext->TransitionBuffer = LoggerContext->FlushList.Flink; WmipEnterUMCritSection(); // // Copy the current LoggerContext->Flushlist information to new FlushList // FlushList.Flink = LoggerContext->FlushList.Flink; FlushList.Flink->Blink = &FlushList; FlushList.Blink = LoggerContext->FlushList.Blink; FlushList.Blink->Flink = &FlushList; // // Reinitialize LoggerContext->FlushList // InitializeListHead(&LoggerContext->FlushList); WmipLeaveUMCritSection(); do{ pEntry = IsListEmpty(&FlushList) ? NULL : RemoveHeadList(&FlushList); if (pEntry ){ Buffer = CONTAINING_RECORD(pEntry, WMI_BUFFER_HEADER, Entry); if (Buffer->Flags == BUFFER_STATE_UNUSED) { Buffer->Flags = BUFFER_STATE_DIRTY; // Let FlushBuffer deal with it } Status = WmipFlushBuffer(LoggerContext, Buffer); WmipEnterUMCritSection(); if (LoggerContext->BufferAgeLimit.QuadPart == 0) { InsertTailList(&LoggerContext->FreeList, &Buffer->Entry); } else { InsertHeadList(&LoggerContext->FreeList, &Buffer->Entry); } WmipLeaveUMCritSection(); if (!NT_SUCCESS(Status)) { if((Status == STATUS_LOG_FILE_FULL) || (Status == STATUS_NO_DATA_DETECTED) || (Status == STATUS_SEVERITY_WARNING)){ if (Status == STATUS_LOG_FILE_FULL){ ErrorCount++; } else { ErrorCount = 0; // reset to zero otherwise } if (ErrorCount > ERROR_RETRY_COUNT){ StopLogging = TRUE; // for now. Should raise WMI event break; } } else { StopLogging = TRUE; // Some Kind of Severe Error break; } } } }while( pEntry ); LoggerContext->TransitionBuffer = NULL; if (StopLogging) { #if DBG LONG RefCount; #endif Status = NtClose(LoggerContext->LogFileHandle); LoggerContext->LogFileHandle = NULL; WmipStopLoggerInstance(); #if DBG RefCount = #endif WmipLockLogger(); TraceDebug(("WmipLogger: %d->%d\n", RefCount-1, RefCount)); WmipFreeLoggerContext (LoggerContext); WmipSetNtStatus(Status); WmipExitThread(0); } } // while loop // if a normal collection end, flush out all the buffers before stopping // WmipFlushAllBuffers(LoggerContext); NtSetEvent(LoggerContext->LoggerEvent, NULL); // RtlDeleteCriticalSection(&UMLogCritSect); WmipExitThread(0); // check to see if this thread terminate itself with this } ULONG WmipFlushBuffer( IN PWMI_LOGGER_CONTEXT LoggerContext, IN PWMI_BUFFER_HEADER Buffer ) /*++ Routine Description: This function is responsible for flushing a filled buffer out to disk, or to a real time consumer. Arguments: LoggerContext Context of the logger Return Value: The status of flushing the buffer --*/ { IO_STATUS_BLOCK IoStatus; NTSTATUS Status = STATUS_SUCCESS; PWMI_BUFFER_HEADER OldBuffer; ULONG BufferSize; // // Grab the buffer to be flushed // BufferSize = LoggerContext->BufferSize; // // Put end of record marker in buffer if available space // if (Buffer->SavedOffset > 0) { Buffer->Offset = Buffer->SavedOffset; } else { Buffer->Offset = Buffer->CurrentOffset; } if (Buffer->Offset < BufferSize) { RtlFillMemory( (char *) Buffer + Buffer->Offset, BufferSize - Buffer->Offset, 0xFF); } if (Buffer->Offset < sizeof(WMI_BUFFER_HEADER)) { // should not happen Status = STATUS_INVALID_PARAMETER; goto ResetTraceBuffer; } if (Buffer->Offset == sizeof(WMI_BUFFER_HEADER)) { // empty buffer Status = STATUS_NO_DATA_DETECTED; goto ResetTraceBuffer; } Status = STATUS_SUCCESS; Buffer->Wnode.BufferSize = BufferSize; Buffer->ClientContext.LoggerId = (USHORT) LoggerContext->LoggerId; Buffer->ClientContext.Alignment = (UCHAR) WmiTraceAlignment; Buffer->SavedOffset = WmipGetCurrentProcessId(); RtlCopyMemory(&Buffer->Wnode.Guid, &EventTraceGuid, sizeof(GUID)); Buffer->Wnode.Flags = WNODE_FLAG_TRACED_GUID; Buffer->Flags |= WNODE_FLAG_THREAD_BUFFER; Buffer->Wnode.TimeStamp.QuadPart = WmipGetSystemTime(); if (LoggerContext->LogFileHandle == NULL) { goto ResetTraceBuffer; } if (LoggerContext->MaximumFileSize > 0) { // if quota given ULONG64 FileSize = LoggerContext->LastFlushedBuffer * BufferSize; ULONG64 FileLimit = LoggerContext->MaximumFileSize * BYTES_PER_MB; if ( FileSize >= FileLimit ) { // reaches maximum file size ULONG LoggerMode = LoggerContext->LogFileMode & 0X000000FF; LoggerMode &= ~EVENT_TRACE_FILE_MODE_APPEND; switch (LoggerMode) { case EVENT_TRACE_FILE_MODE_SEQUENTIAL : // do not write to logfile anymore Status = STATUS_LOG_FILE_FULL; // control needs to stop logging // need to fire up a Wmi Event to control console break; case EVENT_TRACE_FILE_MODE_CIRCULAR : { // reposition file LoggerContext->ByteOffset = LoggerContext->FirstBufferOffset; LoggerContext->LastFlushedBuffer = (ULONG) (LoggerContext->FirstBufferOffset.QuadPart / LoggerContext->BufferSize); break; } default : break; } } } if (NT_SUCCESS(Status)) { Status = NtWriteFile( LoggerContext->LogFileHandle, NULL, NULL, NULL, &IoStatus, Buffer, BufferSize, &LoggerContext->ByteOffset, NULL); } if (NT_SUCCESS(Status)) { LoggerContext->ByteOffset.QuadPart += BufferSize; } ResetTraceBuffer: if (NT_SUCCESS(Status)) { LoggerContext->BuffersWritten++; LoggerContext->LastFlushedBuffer++; } else { if ((Status != STATUS_NO_DATA_DETECTED) && (Status != STATUS_SEVERITY_WARNING)) LoggerContext->LogBuffersLost++; } // // Reset the buffer state // Buffer->EventsLost = 0; Buffer->SavedOffset = 0; Buffer->ReferenceCount = 0; Buffer->Flags = BUFFER_STATE_UNUSED; // // Try and remove an unused buffer if it has not been used for a while // InterlockedIncrement(& LoggerContext->BuffersAvailable); return Status; } PVOID FASTCALL WmipReserveTraceBuffer( IN ULONG RequiredSize, OUT PWMI_BUFFER_HEADER *BufferResource ) { PWMI_BUFFER_HEADER Buffer, OldBuffer; PVOID ReservedSpace; ULONG Offset; ULONG fCircularBufferOnly = FALSE; // tracelog.c v39->v40 ULONG Processor = (ULONG) (NtCurrentTeb()->IdealProcessor); PWMI_LOGGER_CONTEXT LoggerContext = WmipLoggerContext; // // NOTE: This routine assumes that the caller has verified that // WmipLoggerContext is valid and is locked // if (Processor >= LoggerContext->NumberOfProcessors) { Processor = LoggerContext->NumberOfProcessors-1; } *BufferResource = NULL; RequiredSize = (ULONG) ALIGN_TO_POWER2(RequiredSize, WmiTraceAlignment); TryFindSpace: // // Get the processor specific buffer pool // Buffer = LoggerContext->ProcessorBuffers[Processor]; if (Buffer == NULL) { return NULL; } // // Increment refcount to buffer first to prevent it from going away // InterlockedIncrement(&Buffer->ReferenceCount); if ((Buffer->Flags != BUFFER_STATE_FULL) && (Buffer->Flags != BUFFER_STATE_UNUSED)) { // // This should happen 99% of the time. Offset will have the old value // Offset = (ULONG) InterlockedExchangeAdd( & Buffer->CurrentOffset, RequiredSize); // // First, check to see if there is enough space. If not, it will // need to get another fresh buffer, and have the current buffer flushed // if (Offset+RequiredSize < WmipLoggerContext->BufferSize) { // // Found the space so return it. This should happen 99% of the time // ReservedSpace = (PVOID) (Offset + (char*)Buffer); if (LoggerContext->SequencePtr) { *((PULONG) ReservedSpace) = InterlockedIncrement(LoggerContext->SequencePtr); } goto FoundSpace; } } else { Offset = Buffer->CurrentOffset; // Initialize Local Variable // tracelog.c v40 -> v41 } if (Offset BufferSize) { Buffer->SavedOffset = Offset; // save this for FlushBuffer } // if there is absolutely no more buffers, then return quickly // if ((LoggerContext->NumberOfBuffers == LoggerContext->MaximumBuffers) && (LoggerContext->BuffersAvailable == 0)) { goto LostEvent; } // Out of buffer space. Need to take the long route to find a buffer // Buffer->Flags = BUFFER_STATE_FULL; OldBuffer = Buffer; Buffer = WmipSwitchBuffer(LoggerContext, OldBuffer, Processor); if (Buffer == NULL) { Buffer = OldBuffer; goto LostEvent; } // // Decrement the refcount that we blindly incremented earlier // so that it can be flushed by the logger thread // InterlockedDecrement(&OldBuffer->ReferenceCount); Buffer->ClientContext.ProcessorNumber = (UCHAR) (Processor); if (!fCircularBufferOnly) { NtReleaseSemaphore(LoggerContext->Semaphore, 1, NULL); } goto TryFindSpace; LostEvent: // // Will get here if we are throwing away events. // from tracelog.c v36->v37 // LoggerContext->EventsLost ++; Buffer->EventsLost ++; InterlockedDecrement(& Buffer->ReferenceCount); Buffer = NULL; ReservedSpace = NULL; if (LoggerContext->SequencePtr) { InterlockedIncrement(LoggerContext->SequencePtr); } FoundSpace: // // notify the logger after critical section // *BufferResource = Buffer; return ReservedSpace; } // // This Routine is called to Relog an event for straigtening out an ETL // in time order. This will result in two events being, one for Processor // number and the actual event without any modifications. // ULONG FASTCALL WmipRelogEvent( IN PWNODE_HEADER Wnode ) { PWMI_BUFFER_HEADER BufferResource = NULL; PEVENT_TRACE pEvent = (PEVENT_TRACE) Wnode; PWMI_LOGGER_CONTEXT LoggerContext; PUCHAR BufferSpace; PULONG Marker; ULONG Size; ULONG MaxSize; ULONG SavedProcessor = (ULONG)NtCurrentTeb()->IdealProcessor; ULONG Processor; ULONG Mask; ULONG status; if (pEvent->Header.Size < sizeof(EVENT_TRACE) ) { return ERROR_INVALID_PARAMETER; } LoggerContext = WmipLoggerContext; Processor = ((PWMI_CLIENT_CONTEXT)&pEvent->ClientContext)->ProcessorNumber; Size = pEvent->MofLength; MaxSize = LoggerContext->BufferSize - sizeof(WMI_BUFFER_HEADER); if ((Size == 0) || (Size > MaxSize)) { LoggerContext->EventsLost++; return ERROR_BUFFER_OVERFLOW; } NtCurrentTeb()->IdealProcessor = (BOOLEAN)Processor; BufferSpace = (PUCHAR) WmipReserveTraceBuffer( Size, &BufferResource ); NtCurrentTeb()->IdealProcessor = (BOOLEAN)SavedProcessor; if (BufferSpace == NULL) { return ERROR_OUTOFMEMORY; } RtlCopyMemory(BufferSpace, pEvent->MofData, Size); WmipReleaseTraceBuffer( BufferResource ); return ERROR_SUCCESS; } ULONG FASTCALL WmiTraceUmEvent( IN PWNODE_HEADER Wnode ) /*++ Routine Description: This routine is used by WMI data providers to trace events. It expects the user to pass in the handle to the logger. Also, the user cannot ask to log something that is larger than the buffer size (minus buffer header). Arguments: Wnode The WMI node header that will be overloaded Return Value: STATUS_SUCCESS if the event trace is recorded successfully --*/ { PEVENT_TRACE_HEADER TraceRecord = (PEVENT_TRACE_HEADER) Wnode; ULONG WnodeSize, Size, Flags, HeaderSize; PWMI_BUFFER_HEADER BufferResource = NULL; PWMI_LOGGER_CONTEXT LoggerContext; ULONG Marker; MOF_FIELD MofFields[MAX_MOF_FIELDS]; long MofCount = 0; PCLIENT_ID Cid; #if DBG LONG RefCount; #endif HeaderSize = sizeof(WNODE_HEADER); // same size as EVENT_TRACE_HEADER Size = Wnode->BufferSize; // take the first DWORD flags Marker = Size; if (Marker & TRACE_HEADER_FLAG) { if ( ((Marker & TRACE_HEADER_ENUM_MASK) >> 16) == TRACE_HEADER_TYPE_INSTANCE ) HeaderSize = sizeof(EVENT_INSTANCE_HEADER); Size = TraceRecord->Size; } WnodeSize = Size; // WnodeSize is for the contiguous block // Size is for what we want in buffer Flags = Wnode->Flags; if (!(Flags & WNODE_FLAG_LOG_WNODE) && !(Flags & WNODE_FLAG_TRACED_GUID)) return ERROR_INVALID_PARAMETER; #if DBG RefCount = #endif WmipLockLogger(); #if DBG TraceDebug(("TraceUm: %d->%d\n", RefCount-1, RefCount)); #endif if (!WmipIsLoggerOn()) { #if DBG RefCount = #endif WmipUnlockLogger(); #if DBG TraceDebug(("TraceUm: %d->%d INVALID_HANDLE\n", RefCount+1, RefCount)); #endif return ERROR_INVALID_HANDLE; } LoggerContext = WmipLoggerContext; if (Flags & WNODE_FLAG_NO_HEADER) { ULONG Status; Status = WmipRelogEvent( Wnode ); #if DBG RefCount = #endif WmipUnlockLogger(); #if DBG if (Status != ERROR_SUCCESS) { TraceDebug(("TraceUm: %d->%d Relog Error \n", RefCount+1, RefCount)); } #endif return Status; } if (Flags & WNODE_FLAG_USE_MOF_PTR) { // // Need to compute the total size required, since the MOF fields // in Wnode merely contains pointers // long i; PCHAR Offset = ((PCHAR)Wnode) + HeaderSize; ULONG MofSize, MaxSize; MaxSize = LoggerContext->BufferSize - sizeof(WMI_BUFFER_HEADER); MofSize = WnodeSize - HeaderSize; // allow only the maximum if (MofSize > (sizeof(MOF_FIELD) * MAX_MOF_FIELDS)) return ERROR_INVALID_DATA; // TODO: Do we need to zero memory here? RtlZeroMemory( MofFields, MAX_MOF_FIELDS * sizeof(MOF_FIELD)); if (MofSize > 0) { RtlCopyMemory(MofFields, Offset, MofSize); } Size = HeaderSize; MofCount = MofSize / sizeof(MOF_FIELD); for (i=0; i (MaxSize - Size)) { #if DBG RefCount = #endif WmipUnlockLogger(); #if DBG TraceDebug(("TraceUm: %d->%d BUF_OVERFLOW1\n", RefCount+1, RefCount)); #endif return ERROR_BUFFER_OVERFLOW; } Size += MofSize; if ((Size > MaxSize) || (Size < MofSize)) { #if DBG RefCount = #endif WmipUnlockLogger(); #if DBG TraceDebug(("TraceUm: %d->%d BUF_OVERFLOW2\n", RefCount+1, RefCount)); #endif return ERROR_BUFFER_OVERFLOW; } } } if (Size > LoggerContext->BufferSize - sizeof(WMI_BUFFER_HEADER)) { LoggerContext->EventsLost++; #if DBG RefCount = #endif WmipUnlockLogger(); #if DBG TraceDebug(("TraceUm: %d->%d BUF_OVERFLOW3\n", RefCount+1, RefCount)); #endif return ERROR_BUFFER_OVERFLOW; } // So, now reserve some space in logger buffer and set that to TraceRecord TraceRecord = (PEVENT_TRACE_HEADER) WmipReserveTraceBuffer( Size, &BufferResource ); if (TraceRecord == NULL) { #if DBG RefCount = #endif WmipUnlockLogger(); #if DBG TraceDebug(("TraceUm: %d->%d NO_MEMORY\n", RefCount+1, RefCount)); #endif return ERROR_OUTOFMEMORY; } if (Flags & WNODE_FLAG_USE_MOF_PTR) { // // Now we need to probe and copy all the MOF data fields // PVOID MofPtr; ULONG MofLen; long i; PCHAR TraceOffset = ((PCHAR) TraceRecord) + HeaderSize; RtlCopyMemory(TraceRecord, Wnode, HeaderSize); TraceRecord->Size = (USHORT)Size; // reset to Total Size for (i=0; iGuidPtr; RtlCopyMemory(&TraceRecord->Guid, GuidPtr, sizeof(GUID)); } // // By now, we have reserved space in the trace buffer // if (Marker & TRACE_HEADER_FLAG) { if (! (WNODE_FLAG_USE_TIMESTAMP & TraceRecord->MarkerFlags) ) TraceRecord->ProcessorTime = WmipGetCycleCount(); if (LoggerContext->UsePerfClock == EVENT_TRACE_CLOCK_PERFCOUNTER) { TraceRecord->TimeStamp.QuadPart = TraceRecord->ProcessorTime; } else { TraceRecord->TimeStamp.QuadPart = WmipGetSystemTime(); } Cid = &NtCurrentTeb()->ClientId; TraceRecord->ThreadId = HandleToUlong(Cid->UniqueThread); TraceRecord->ProcessId = HandleToUlong(Cid->UniqueProcess); } WmipReleaseTraceBuffer( BufferResource ); #if DBG RefCount = #endif WmipUnlockLogger(); #if DBG TraceDebug(("TraceUm: %d->%d\n", RefCount+1, RefCount)); #endif return ERROR_SUCCESS; } PWMI_BUFFER_HEADER FASTCALL WmipSwitchBuffer( IN PWMI_LOGGER_CONTEXT LoggerContext, IN PWMI_BUFFER_HEADER OldBuffer, IN ULONG Processor ) { PWMI_BUFFER_HEADER Buffer; ULONG CircularBufferOnly = FALSE; if ( (LoggerContext->LogFileMode & EVENT_TRACE_BUFFERING_MODE) && (LoggerContext->BufferAgeLimit.QuadPart == 0) && (LoggerContext->LogFileHandle == NULL) ) { CircularBufferOnly = TRUE; } WmipEnterUMCritSection(); if (OldBuffer != LoggerContext->ProcessorBuffers[Processor]) { WmipLeaveUMCritSection(); return OldBuffer; } Buffer = WmipGetFreeBuffer(LoggerContext); if (Buffer == NULL) { WmipLeaveUMCritSection(); return NULL; } LoggerContext->ProcessorBuffers[Processor] = Buffer; if (CircularBufferOnly) { InsertTailList(&LoggerContext->FreeList, &OldBuffer->Entry); } else { InsertTailList(&LoggerContext->FlushList, &OldBuffer->Entry); } WmipLeaveUMCritSection(); return Buffer; } ULONG WmipFreeLoggerContext( PWMI_LOGGER_CONTEXT LoggerContext ) { LONG RefCount; if (LoggerContext != NULL) { LARGE_INTEGER Timeout = {(ULONG)(-300 * 1000 * 10), -1}; // 300ms RefCount = WmipUnlockLogger(); #if DBG TraceDebug(("FreeLogger: %d->%d\n", RefCount+1, RefCount)); #endif if (RefCount > 1) { LONG count = 0; NTSTATUS Status = STATUS_TIMEOUT; while (Status == STATUS_TIMEOUT) { count ++; Status = NtWaitForSingleObject( WmipLoggerContext->LoggerEvent, FALSE, &Timeout); if (WmipLoggerCount <= 1) break; if (WmipLoggerCount == RefCount) { #if DBG TraceDebug(("FreeLogger: RefCount remained at %d\n", RefCount)); WmipAssert(Status != STATUS_TIMEOUT); #endif if (count >= 10) WmipLoggerCount = 1; } } } if (LoggerContext->BufferSpace != NULL) { WmipMemFree(LoggerContext->BufferSpace); } if (LoggerContext->ProcessorBuffers != NULL) { WmipFree(LoggerContext->ProcessorBuffers); } if (LoggerContext->LoggerName.Buffer != NULL) { RtlFreeUnicodeString(&LoggerContext->LoggerName); } if (LoggerContext->LogFileName.Buffer != NULL) { RtlFreeUnicodeString(&LoggerContext->LogFileName); } WmipLoggerContext = NULL; WmipFree(LoggerContext); #if DBG RefCount = #endif WmipUnlockLogger(); TraceDebug(("FreeLogger: %d->%d\n", RefCount+1, RefCount)); // RtlDeleteCriticalSection(&UMLogCritSect); } return ERROR_SUCCESS; } ULONG WmipFlushAllBuffers( IN PWMI_LOGGER_CONTEXT LoggerContext ) { NTSTATUS Status = STATUS_SUCCESS; ULONG i; ULONG NumberOfBuffers; PLIST_ENTRY pEntry; PWMI_BUFFER_HEADER Buffer; ULONG RetryCount; WmipEnterUMCritSection(); // First, move the per processor buffer out to FlushList // for (i = 0; i < LoggerContext->NumberOfProcessors; i ++) { Buffer = (PWMI_BUFFER_HEADER) LoggerContext->ProcessorBuffers[i]; LoggerContext->ProcessorBuffers[i] = NULL; if (Buffer != NULL) { // // Check to see if the Buffer ReferenceCount is 0. If Yes, // no one is writing to this buffer and it's okay to flush it. // If No, we need to wait until the other thread is done // writing to this buffer before flushing. // RetryCount = 0; while (Buffer->ReferenceCount != 0) { WmipSleep (250); // Retry every 1/4 second. RetryCount++; if (RetryCount > 300) { // // Since there is no guarantee that the ReferenceCount // will ever go down to zero, we try this for over a minute. // After that time we continue and free the buffer // instead of spinning for ever. #if DBG TraceDebug(("WmipFlushAllBuffer: RetryCount %d exceeds limit", RetryCount)); #endif break; } } InsertTailList(& LoggerContext->FlushList, & Buffer->Entry); } } NumberOfBuffers = LoggerContext->NumberOfBuffers; while ( NT_SUCCESS(Status) && NumberOfBuffers > 0 && ( LoggerContext->BuffersAvailable < LoggerContext->NumberOfBuffers)) { pEntry = IsListEmpty(& LoggerContext->FlushList) ? NULL : RemoveHeadList(& LoggerContext->FlushList); if (pEntry == NULL) break; Buffer = CONTAINING_RECORD(pEntry, WMI_BUFFER_HEADER, Entry); Status = WmipFlushBuffer(LoggerContext, Buffer); InsertHeadList(& LoggerContext->FreeList, & Buffer->Entry); NumberOfBuffers --; } // Note that LoggerContext->LogFileObject needs to remain set // for QueryLogger to work after close // Status = NtClose(LoggerContext->LogFileHandle); LoggerContext->LogFileHandle = NULL; LoggerContext->LoggerStatus = Status; WmipLeaveUMCritSection(); return ERROR_SUCCESS; } ULONG WmipFlushUmLoggerBuffer() { ULONG Status = ERROR_SUCCESS; #if DBG LONG RefCount; RefCount = #endif WmipLockLogger(); TraceDebug(("FlushUm: %d->%d\n", RefCount-1, RefCount)); if (WmipIsLoggerOn()) { WmipLoggerContext->CollectionOn = FALSE; Status = WmipFlushAllBuffers(WmipLoggerContext); if (Status == ERROR_SUCCESS) { PWMI_LOGGER_INFORMATION WmipLoggerInfo = NULL; ULONG lSizeUsed; ULONG lSizeNeeded = 0; lSizeUsed = sizeof(WMI_LOGGER_INFORMATION) + 2 * MAXSTR * sizeof(WCHAR); WmipLoggerInfo = (PWMI_LOGGER_INFORMATION) WmipAlloc(lSizeUsed); if (WmipLoggerInfo == NULL) { Status = ERROR_OUTOFMEMORY; } else { RtlZeroMemory(WmipLoggerInfo, lSizeUsed); WmipLoggerInfo->Wnode.BufferSize = lSizeUsed; WmipLoggerInfo->Wnode.Flags |= WNODE_FLAG_TRACED_GUID; Status = WmipQueryUmLogger( WmipLoggerInfo->Wnode.BufferSize, & lSizeUsed, & lSizeNeeded, WmipLoggerInfo); if (Status == ERROR_SUCCESS) { Status = WmipFinalizeLogFileHeader(WmipLoggerInfo); } WmipFree(WmipLoggerInfo); } } WmipFreeLoggerContext(WmipLoggerContext); } return Status; } LONG FASTCALL WmipReleaseTraceBuffer( IN PWMI_BUFFER_HEADER BufferResource ) { ULONG RefCount; if (BufferResource == NULL) return 0; RefCount = InterlockedDecrement(&BufferResource->ReferenceCount); if ((RefCount == 0) && (BufferResource->Flags == BUFFER_STATE_FULL)) { NtReleaseSemaphore(WmipLoggerContext->Semaphore, 1, NULL); } return RefCount; } ULONG WmipReceiveReply( HANDLE ReplyHandle, ULONG ReplyCount, ULONG ReplyIndex, PVOID OutBuffer, ULONG OutBufferSize ) { ULONG Status = ERROR_SUCCESS; ULONG ReturnSize; PWMIRECEIVENOTIFICATION RcvNotification; ULONG RcvNotificationSize; PUCHAR Buffer; ULONG BufferSize; PWNODE_TOO_SMALL WnodeTooSmall; PWNODE_HEADER Wnode; ULONG Linkage; ULONG RcvCount = 0; struct { WMIRECEIVENOTIFICATION Notification; HANDLE3264 Handle; } NotificationInfo; RcvNotificationSize = sizeof(WMIRECEIVENOTIFICATION) + sizeof(HANDLE3264); RcvNotification = (PWMIRECEIVENOTIFICATION) &NotificationInfo; Status = ERROR_SUCCESS; RcvNotification->Handles[0].Handle = ReplyHandle; RcvNotification->HandleCount = 1; RcvNotification->Action = RECEIVE_ACTION_NONE; WmipSetPVoid3264(RcvNotification->UserModeCallback, NULL); BufferSize = 0x1000; Status = ERROR_INSUFFICIENT_BUFFER; while ( (Status == ERROR_INSUFFICIENT_BUFFER) || ((Status == ERROR_SUCCESS) && (RcvCount < ReplyCount)) ) { Buffer = WmipAlloc(BufferSize); if (Buffer != NULL) { Status = WmipSendWmiKMRequest(NULL, IOCTL_WMI_RECEIVE_NOTIFICATIONS, RcvNotification, RcvNotificationSize, Buffer, BufferSize, &ReturnSize, NULL); if (Status == ERROR_SUCCESS) { WnodeTooSmall = (PWNODE_TOO_SMALL)Buffer; if ((ReturnSize == sizeof(WNODE_TOO_SMALL)) && (WnodeTooSmall->WnodeHeader.Flags & WNODE_FLAG_TOO_SMALL)) { // // The buffer passed to kernel mode was too small // so we need to make it larger and then try the // request again // BufferSize = WnodeTooSmall->SizeNeeded; Status = ERROR_INSUFFICIENT_BUFFER; } else { // // We got a buffer of notifications so lets go // process them and callback the caller // PUCHAR Result = (PUCHAR)OutBuffer; ULONG SizeNeeded = 0; ULONG SizeUsed = 0; Wnode = (PWNODE_HEADER)Buffer; do { Linkage = Wnode->Linkage; Wnode->Linkage = 0; if (Wnode->Flags & WNODE_FLAG_INTERNAL) { // If this is the Reply copy it to the buffer PWMI_LOGGER_INFORMATION LoggerInfo; RcvCount++; LoggerInfo = (PWMI_LOGGER_INFORMATION)((PUCHAR)Wnode + sizeof(WNODE_HEADER)); SizeNeeded = LoggerInfo->Wnode.BufferSize; if ((SizeUsed + SizeNeeded) <= OutBufferSize) { memcpy(Result, LoggerInfo, LoggerInfo->Wnode.BufferSize); Result += SizeNeeded; SizeUsed += SizeNeeded; } else Status = ERROR_NOT_ENOUGH_MEMORY; } Wnode = (PWNODE_HEADER)OffsetToPtr(Wnode, Linkage); } while (Linkage != 0); } } WmipFree(Buffer); } else { Status = ERROR_NOT_ENOUGH_MEMORY; } } return Status; } NTSTATUS WmipTraceUmMessage( IN ULONG Size, IN ULONG64 LoggerHandle, IN ULONG MessageFlags, IN LPGUID MessageGuid, IN USHORT MessageNumber, va_list MessageArgList ) /*++ Routine Description: Arguments: Return Value: --*/ { PMESSAGE_TRACE_HEADER Header; char * pMessageData ; PWMI_BUFFER_HEADER BufferResource = NULL ; ULONG SequenceNumber ; PWMI_LOGGER_CONTEXT LoggerContext; WmipLockLogger(); // Lock the logger if (!WmipIsLoggerOn()) { WmipUnlockLogger(); return STATUS_INVALID_HANDLE; } LoggerContext = WmipLoggerContext; try { // Figure the total size of the message including the header Size += (MessageFlags&TRACE_MESSAGE_SEQUENCE ? sizeof(ULONG):0) + (MessageFlags&TRACE_MESSAGE_GUID ? sizeof(GUID):0) + (MessageFlags&TRACE_MESSAGE_COMPONENTID ? sizeof(ULONG):0) + (MessageFlags&(TRACE_MESSAGE_TIMESTAMP | TRACE_MESSAGE_PERFORMANCE_TIMESTAMP) ? sizeof(LARGE_INTEGER):0) + (MessageFlags&TRACE_MESSAGE_SYSTEMINFO ? 2 * sizeof(ULONG):0) + sizeof (MESSAGE_TRACE_HEADER) ; // // Allocate Space in the Trace Buffer // if (Size > LoggerContext->BufferSize - sizeof(WMI_BUFFER_HEADER)) { LoggerContext->EventsLost++; WmipUnlockLogger(); return STATUS_BUFFER_OVERFLOW; } if ((Header = (PMESSAGE_TRACE_HEADER)WmipReserveTraceBuffer(Size,&BufferResource)) == NULL) { WmipUnlockLogger(); return STATUS_NO_MEMORY; } // // Sequence Number is returned in the Marker field of the buffer // SequenceNumber = Header->Marker ; // // Now copy the necessary information into the buffer // Header->Marker = TRACE_MESSAGE | TRACE_HEADER_FLAG ; // // Fill in Header. // Header->Size = (USHORT)(Size & 0xFFFF) ; Header->Packet.OptionFlags = ((USHORT)MessageFlags & (TRACE_MESSAGE_SEQUENCE | TRACE_MESSAGE_GUID | TRACE_MESSAGE_COMPONENTID | TRACE_MESSAGE_TIMESTAMP | TRACE_MESSAGE_PERFORMANCE_TIMESTAMP | TRACE_MESSAGE_SYSTEMINFO)) & TRACE_MESSAGE_FLAG_MASK ; // Message Number Header->Packet.MessageNumber = MessageNumber ; // // Now add in the header options we counted. // pMessageData = &(((PMESSAGE_TRACE)Header)->Data); // // Note that the order in which these are added is critical New entries must // be added at the end! // // [First Entry] Sequence Number if (MessageFlags&TRACE_MESSAGE_SEQUENCE) { RtlCopyMemory(pMessageData, &SequenceNumber, sizeof(ULONG)) ; pMessageData += sizeof(ULONG) ; } // [Second Entry] GUID ? or CompnentID ? if (MessageFlags&TRACE_MESSAGE_COMPONENTID) { RtlCopyMemory(pMessageData,MessageGuid,sizeof(ULONG)) ; pMessageData += sizeof(ULONG) ; } else if (MessageFlags&TRACE_MESSAGE_GUID) { // Can't have both RtlCopyMemory(pMessageData,MessageGuid,sizeof(GUID)); pMessageData += sizeof(GUID) ; } // [Third Entry] Timestamp? if (MessageFlags&TRACE_MESSAGE_TIMESTAMP) { LARGE_INTEGER Perfcount ; if (MessageFlags&TRACE_MESSAGE_PERFORMANCE_TIMESTAMP) { LARGE_INTEGER Frequency ; NTSTATUS Status ; Status = NtQueryPerformanceCounter(&Perfcount, &Frequency); } else { Perfcount.QuadPart = WmipGetSystemTime(); }; RtlCopyMemory(pMessageData,&Perfcount,sizeof(LARGE_INTEGER)); pMessageData += sizeof(LARGE_INTEGER); } // [Fourth Entry] System Information? if (MessageFlags&TRACE_MESSAGE_SYSTEMINFO) { PCLIENT_ID Cid; ULONG Id; // match with NTOS version Cid = &NtCurrentTeb()->ClientId; *((PULONG)pMessageData) = HandleToUlong(Cid->UniqueThread); pMessageData += sizeof(ULONG) ; *((PULONG)pMessageData) = HandleToUlong(Cid->UniqueProcess); pMessageData += sizeof(ULONG) ; } // // Add New Header Entries immediately before this comment! // // // Now Copy in the Data. // { // Allocation Block va_list ap; PCHAR source; ap = MessageArgList ; while ((source = va_arg (ap, PVOID)) != NULL) { size_t elemBytes; elemBytes = va_arg (ap, size_t); RtlCopyMemory (pMessageData, source, elemBytes); pMessageData += elemBytes; } } // Allocation Block // // Buffer Complete, Release // WmipReleaseTraceBuffer( BufferResource ); WmipUnlockLogger(); // // Return Success // return (STATUS_SUCCESS); } except (EXCEPTION_EXECUTE_HANDLER) { if (BufferResource != NULL) { WmipReleaseTraceBuffer ( BufferResource ); // also unlocks the logger } WmipUnlockLogger(); return GetExceptionCode(); } } PWMI_BUFFER_HEADER FASTCALL WmipGetFullFreeBuffer( VOID ) { PWMI_BUFFER_HEADER Buffer; PWMI_LOGGER_CONTEXT LoggerContext = WmipLoggerContext; WmipEnterUMCritSection(); Buffer = WmipGetFreeBuffer(LoggerContext); if(Buffer) { InterlockedIncrement(&Buffer->ReferenceCount); } else { LoggerContext->EventsLost ++; } WmipLeaveUMCritSection(); return Buffer; } ULONG WmipReleaseFullBuffer( IN PWMI_BUFFER_HEADER Buffer ) { PWMI_LOGGER_CONTEXT LoggerContext = WmipLoggerContext; ULONG CircularBufferOnly = FALSE; if(!Buffer) return STATUS_UNSUCCESSFUL; if ( (LoggerContext->LogFileMode & EVENT_TRACE_BUFFERING_MODE) && (LoggerContext->BufferAgeLimit.QuadPart == 0) && (LoggerContext->LogFileHandle == NULL) ) { CircularBufferOnly = TRUE; } WmipEnterUMCritSection(); Buffer->SavedOffset = Buffer->CurrentOffset; Buffer->Flags = BUFFER_STATE_FULL; Buffer->CurrentOffset = WmipGetCurrentThreadId(); InterlockedDecrement(&Buffer->ReferenceCount); if (CircularBufferOnly) { InsertTailList(&LoggerContext->FreeList, &Buffer->Entry); } else { InsertTailList(&LoggerContext->FlushList, &Buffer->Entry); } WmipLeaveUMCritSection(); return ERROR_SUCCESS; } PWMI_BUFFER_HEADER FASTCALL WmipSwitchFullBuffer( IN PWMI_BUFFER_HEADER OldBuffer ) { PWMI_BUFFER_HEADER Buffer; PWMI_LOGGER_CONTEXT LoggerContext = WmipLoggerContext; ULONG CircularBufferOnly = FALSE; if ( (LoggerContext->LogFileMode & EVENT_TRACE_BUFFERING_MODE) && (LoggerContext->BufferAgeLimit.QuadPart == 0) && (LoggerContext->LogFileHandle == NULL) ) { CircularBufferOnly = TRUE; } WmipEnterUMCritSection(); Buffer = WmipGetFullFreeBuffer(); OldBuffer->SavedOffset = OldBuffer->CurrentOffset; OldBuffer->Flags = BUFFER_STATE_FULL; OldBuffer->CurrentOffset = WmipGetCurrentThreadId(); if (CircularBufferOnly) { InsertTailList(&LoggerContext->FreeList, &OldBuffer->Entry); } else { InsertTailList(&LoggerContext->FlushList, &OldBuffer->Entry); } WmipLeaveUMCritSection(); if (!CircularBufferOnly) { NtReleaseSemaphore(LoggerContext->Semaphore, 1, NULL); } return Buffer; }